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ED 037 369
AUTHORTITLEINSTITUTION
PUB DATENOTE
EDRS PRICEDESCRIPTORS
TDPNTIFIERS
ABSTRACT
DOCUMENT RESUME
SE 008 227
Butts, David P.Describing Observations, 1st Experimental Edition.Texas Univ., Austin. Research and Development Centerfor Teacher Education. ; Texas Univ., Austin. ScienceEducation Center.(70]77p.
EDRS Price ME -$0_ 5O HC-$3.95*Cognitive Processes, Elementary School Science,*Elementary School Teachers, InstructionalMaterials, *Observation, *Science Activities, SpaceClassification, *Teacher EducationThe University of Texas
This instructional module for teacher education hastwo main goals: (a) participants will group objects or events and (b)participant will share his grouping with others, either verbally orwith graphs. The graphing conventions used in the module are based onthe materials developed by the Commission on Science Education of theAmerican Association for the Advancement of Science in their program,Science - A Process Approach. The general pattern of instruction inthis module is one of presenting the situation with as littleinstructor-direction as possible. After the participant has generateddata, then the sequence provides illustrations of how the instructorcould guide the discussion toward a meaningful description of thedata gathered. The objectives of this instructional module are statedin performance terms. The format includes suggested time periods ofeach activity, materials for each activity, pre-appraisal for eachperformance objective, a description of the instructional activities,and post-appraisal. Because of the diagnostic data available in thepre-appraisal experience, it is possible to determine whichinstructional sequence appears to be most appropriate for whichstudent. (BR)
MS 000114111 HAS 11111 INFRODUCE0 EXACTLY AS Mane FROM III
PERSON 01 01611111111011 ORIGNMINI6 II. POINTS OF VIEW OR OPIWONS
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POSITION 01 POLICY.
DESCRIBING OBSERVATIONS
1st Experimental Edition
The Research_ 86 De-veloprn_ent CenterFor Teacher Education
THE UNIVERSITY OF TEXAS
AUSTIN
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U.S. DEMME 01 NUM. EIMICITION 1 WHIM
C, 0111(1 Of EDUCATION
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PERSON 01 01601/111011 0/16111111116 IT. POINTS OF VIEW 01 OPINIONS
STATED DO NOT NECESSARILY IMPIESENT WIWI. OM Of EDUCATION
POSITION 61 POLICY.
DESCRIBING OBSERVATIONS
1st Experimental Edition
Table of Contents
Page
Objectives 1
Rationale 1
References 6
Materials List 7
Instructional Activities 9
Duplicated Materials - Without Answers 30
Duplicated Materials - With Answers 66
DESCRIBING OBSERVATIONS
David P. Butts
Science Education Centerand
The Research and Development Center for Teacher EducationThe University of Texas at Austin
I. PERFORMANCE OBJECTIVES:
At the end of this session the participant should be able to:
1. Identify and name two dimensional and three dimensionalshapes as parts of objects in the environment.
2. Name the minimal observable properties of an object oran event necessary to distinguish it from similar objects
or events in a set.
3. Construct a two or more stage classification of a set ofobjects, based on observable properties.
4. Construct a graph for pairs of observations.
II. RATIONALE:
While it is recognized that the basis of all empirical know-ledge is the experience of the individual, experience by itself isnot equal to knowledge. We learn not by experience but by using
our experiences. Being able to select parts of our experiences toshare with others represents a task of no small magnitude. The
ability to communicate to another is as important to a scientist
as it is to any other educated person. Scientific studies which
are not disseminated or available to other individuals lose much,
if-not most, of their value toscience. The most important require-
ments of any scientific communication are accuracy, completenessand conciseness. Free associations and impressions have little place
in such communication. Accuracy in detail, and completeness withoutembroidered elaboration must be such that the receiver of the com-munication has no doubt as to the purpose, method, and results ofthe study being reported. Producing scientific communication requires
skill and practice. For this reason the basic principles of com-munication are essential to children as well as adults.
There are three types of communication which are important toscience: oral, written, and pictorial. At the earliest level in
science instruction, oral communication is stressed. Then illus-
trations are introduced, and later, written communications areincorporated. These three types of communication are used to supple-
ment each other.
The final test of any communication is whether the informationis actually received by the reader or hearer. Scientific communica-
tion may be evaluated by determining whether the recipient of theinformation can locate or reproduce the results communicated. For
example, can the individual locate among many similar objects theone to which the communicator is referring.
In addition to communication, another dimension of describing
observations iS that of classification. A classification is, in a
sense, an extension of an observation. Careful observations are
essential before classifications can be made. In each classifica-
tion activity, it is necessary for the individual to make his obser-
vations even more explicitly than he did in those situations in which
he was merely communicating observations.
Classification is a powerful tool for the scientist. In using
this tool to describe observations, there is the opportunity to
specify variety and complexity; there is an opportunity to differ-
entiate using a systematic key and to generate a scheme for coding.
Classification initially is based on properties which are directly
observable. Recognizing similarities and differences among objects
or events becomes of primary importance in establishing a classifica-
tion scheme. This is followed, then, by skills in finding similari-
ties and differences in a variety of things and establishing inclusive
groups which are based on these similarities and more exclusive groups
that are based on differences. All classification systems are arbi-
trary. Different ways of classifying the same set of objects may
be more or less useful, depending upon the specific function the
scheme is to serve.
In this instructional module, there are two main goals. The
first is that the participant will group objects or events and will
be able to share his grouping with others. The second goal involves
the manner of sharing. It may be verbally or with graphs. The
emphasis on the latter emerges since graphing is an extremely useful
and powerful means by which one can communicate a relationship between
objects and events. The graphing conventions used in this module are
based on the materials developed by the Commission on Science Edu-cation of the hmerican Association for the Advancement of Sciencein their program, Science - A Process Approach.
The population for which this instructional program has beenfound to be effective includes pre-service and in-service elementaryteachers who teach science.
The instructional activities of this module are based on thesequence in Figure 1.
The general pattern of instruction in this module is one ofpresenting the situation with as little instructor-direction aspossible. After the participant has generated data, then the se-quence provides illustrations of how the instructor could guide the
discussion toward a meaningful description of the data gathered.
Because of the diagnostic data available in the pre-appraisalexperience, it is possible to determine which instructional sequenceappears to be most appropriate for which student. Experience indi-
cates that if 80 percent of a group performs well on an appraisaltask, the related instruction activities should be omitted. For
this instructional module, this is illustiiiiras:
.
Objective Appraisal Task
.
Instructional Activity
1 I, II 1
2 1 III 2
3 IV 3
V 4
Evaluation Data:
The results of students involved in the instructional experi-ence as described in this module are as follows:
TNIMINIMMW
Activity
2
P"
Activity
1
Identity the informationneeded to select an objectfrom the
Given a group of objects,select one.
..""
Modify the instruction toconstruct an arrangement.
I
Given verbal direction,construct an arrangementof Tinkertoys.
Describe a basis ofgrouping using numberof lines of symmetry.1Describe a basis ofgrouping using theconcept of symmetry.
Describe the expectedshadows of 3-D shaper.
Describe the essentialcomponents of communi-cation as clarity and,decision.
Pre -
Appraisal
Identity two andthree dimensionalshapes in the room.
FIGURE 1.
Objectives
Identify and name two dimen-
sional and three dimensional
shapes as parts of objects
in the environment.
Post-
Appraisal
[..._
I, II
Activity
4
Activity
3
Name the minimal observable
properties of an object or
an event necessary to dis-
tinguish it from similar
objects or events in a set.
III
(Figure 1 continued)
Construct a two ormore
stage classification
of
a set of objects, based
on observable properties
I V
I. N
.O.
/
Construct a graph
for pairs of obser-
vations. V
Identify and name the
function of alternative
graphs of the same data.
Name essential
Construct
parts of a graph
a graph.
Construct a graph
to demonstrate con
treat in quantity.
Describe objects using
number of characteris-
tics as the basis of
,complir_ison
I
Demonstrate utility of a
classification system by
including a new object in it.
Name groups for a
collection of Ob-
jects.
Construct a classi-
fication of a col-
lection of objects.
Given a time limit, con-
struct a list of miscel-
laneous objects.
With a group of pre-service teachers, N = 22.
Task I
Task II
Task III
Task IV
Task V
Pre Post
3 20
1 18
18 17
3 12
3 19
The time periods required for this instructional module included:
A. Planning for instruction: Avg. 5 hours (est.)
(Range: 2 to 10 hours)
B. Teaching: Avg. 125 minutes (est.)(Range: 40 to 240 minutes)
Suggested time periods for the module are as follows:
A. Pre-AppraisalB. Activity 1
C. Activity 2D. Activity 3E. Activity 4F; Post-Appraisal
Total
III. REFERENCES:
20 minutes30 minutes15 minutes20 minutes20 minutes20 minutes
125 minutes
Commission on Science Education. Science - A Process Approach,
Commentary for Teachers. AAASWeiliataous PubllcatiOn,65-22, 1968, pp. 59-77, 78-83, 109-119.
Jacobsen, Willard and Kondo, Allan. Science Curriculum Im-
provement Study. SCIS Elementary Science Sourcebook.
University of California: Berkeley, California, 1968,
pp. 99-103, 131.
IV. MATERIALS
Pre-Appraisal
Activity 1
Activity 2
Activity 3
LIST
Dr. Pepper bottleTransparency A
D0 #1
SVE Farm AnimalPictures(1 set)
Packet A(1 per 4 or.5participants)
Scissors (1 pair)Construction paper(various colors,12-20 sheets)Packet 8(1 per 4 or 5participants)
Packet C(1 per partici-pant)
Packet A(from Activity 1)
Packet 0(1 per 4 or 5participants)
Large chart paper(1 per 4 or 5participants)
Felt pen (1 per4 or 5 participants)
7
Group of fruit (apple, banana,orange, grapes, cherries)(1 per participant)
Any large pictures of farm ani-mals, including a cow, horse,rooster, and others, will beadequate.Includes a set of felt, manila,or other paper cutouts of 2-Dshapes: square, circle, rectangle,triangle, ellipse; a set of plas-tic, wooden, or styrofoam 3-Dshapes: cube, sphere, cylinder,rectangular, paral l el epi ped,
triangular or rectangular pyra-mid, ellipsoid, cone.
Includes paper cut-outs of hex-agon, ellipse, parallelogram,octagon, equilateral triangle,pumpkin, pear, house, doll, andletters (all items designed so
as to be symmetrical).
Includes 8 pieces of Tinkertoyswhich can be fitted togetherinto a construction (restrictto 2 colors of toys).
15 objects such as a pencil,eraser, rubber band, paper clip,wooden cube, sugar cube, smallball, petri dish, and circularpaper shape, penny, washer, etc.,contained in a box.
Aptivityl
Appraisal
CoinSet of vegetables ... May be fresh, or plastic, or(1) pictures of vegetables, such as
Irish potato, sweet potato,radish, carrot, beet, greenonioq, white or purple onion,turnip, celery, and head lettuce(no tomato).1 per participant
(fresh, plastic, or picture)
DO #3
Green pepper (1)Orange (1)
Packet D(from Activity 3)
Plain or ruled paper(2 per participant)
00 #4 1
Large chart paper(1 per 4 or 5 par-ticipants)
Transparencies (LC,and 0
per participant
Series of graphs; refers tothose used in item #59.
Round primary pencil,sharpened00 #2 1 per participantTransparency E Group of configurationsDO 15
V. INSTRUCTIOL ACTIVITIES
Pre-Appraisal (Time: Approximately 20 minutes)
(Direction: Use transparency A, Dr. Pepper bottle, and dis-tribute copies of DO in.)
1. This activity will provide an opportunity for you to checkon your describing behavior. Take 10 minutes to do thetask. Do what you can do in 10 minutes. Your score willbe the number of acceptable responses.
2. Here are the acceptable responses for the five tasks. if
you have 4 of the 5 on Task I, circle Task I on your paper;8 of 10 possible tasks for Task II, circle Task II on yourpaper; 5 of 5, circle Task III; 5 of 5, circle Task IV;3 of 4, circle Task V.
Tally the number havingin the following way:
Objective
1
1
2
3
4
acceptable responses for each task
Number HavingTask Acceptable Responses
3.
Activity 1 (Instruction time: approximately 30 minutes)
Objective 1: Identify and name two dimensional and threedimensional shapes as parts of objects inthe environment.
(Direction: Display 4 or 5 of the SVE Farm Animal pictures,including cow, horse, and rooster.)
Please find the picture of the thing that has a gizmo on topof one of its ends.
Expect puzzlement from the participants, but accept allresponses.
4. Point to the cone-shaped projection on the head of one ofthe animals.
There are several such projections that the participants couldidentify such as cow's horns, goose's beak, chicken beak,horse's ear.
(Direction: Refer to activities #4 & 4.)
5. What was the difference In the two tasks?
The chief contrast is the preciseness of the description andthe clarity with which you know what was expected of you.
(Direction: Distribute Packet A to each of the groups of 4 or5 participants. Packet A includes the two and three-dimensionalshapes.)
Select one of the objects in your packet and find anotherobject here in the room that has a shape similar to the
10
shape of your object. Name both the shape of your object
and the object in the room that is shaped like it.
Continue this activity until the various participants have
each had an opportunity to identify and name several of the
two- or three-dimensional shapes and make sure that each of
the shapes has been 'med.
(Direction: Use the cube-shaped object to demonstrate on the
overhead projector, without allowing participants to see the
cube on the stage.)
7. As I turn on the light, what is the shape of the shadow you
see?
The group would observe a square-shaped shadow from both
images of the overhead projector.
8. What do you think the object on the stage is?
9.
10.
(Direction: Hold up the sphere-shaped object.)
Draw the shape of the two shadows you expect to see from
this object. Label them Shadow 1 and Shadow 2.
As you walk among the group, you should be able to identify any
who are unable to visualize both shadows as being like a circle.
Continue this activity with the ellipsoid, pyramid, cone, and
rectangular parallelepiped. Verify the shadows by demonstra-
ting two positions on the overhead projector.
How was the task of "shadows" related to our subject of
Describing?
(Direction: Use construction paper and scissors for this
activity.)
11
11. As I cut out these pieces of paper, I an placingtwo groups. When you think you can identify thethe two groups, please share it with the rest of
12.
14.
them intoreason forus.
Deliberately fold the construction paper before you cut shapesfor one pile -- do not fold the paper for the shapes in thesecond pile. The partite pants may identify color, straight andcurved sides, etc., as your basis. Someone may say that thebasis of grouping is the fold. Accept all responses. If foldis mentioned, continue.
You think this pile belongs together because they are allfolded, and these belong together because they are notfolded. That's a good idea, but it is not the basis thatI'm using.
Then proceed to fold all the paper objects in the second pile.
(Direction: After you have 12-15 paper objects in each pile,you may need to help the group focus their attention on thesimilarities and differences in the paper objects.)
In what way are all the paper objects alike in this group,and different from the paper objects in the second group?
Several suggestions may be made by the participants. The spe-cific reason which is appropriate is the relationship betweenthe timing of folding the piece of paper (before or after outing),resulting in some of the paper objects having matching sides.
(Direction: When suggestions of this type are made, scrambleall of the paper objects into one pile.)
please group these objects using the basisthat has just described.
When this can be successfully done, you may want to introducethe word, symmetry. (One way to do this is to ask:)
12
IWhen the two sides of an object match, what is the label orname we give to that characteristic?
If no one answers, give them the word symmetry and its opposite,asymmetry.
(Direction: Distribute Packet B which includes a cut=out ofa hexagon, parallelogram, ellipse, equilateraltriangle, pumpkin, pear, house, and doll. Alsoa series of cut-out letters. These packets shouldbe distributed to groups of 4 or 5 participants.)
16. Arrange the letters into two groups -- one that has symmetryand one group that is not symmtrical.
17.
18.
19.
This task will give an opportunity for the participants todisplay their ability to use the concept of symmetry with anew set of objects.
New look at the paper objects you have in your packet. Howmany of them are symmetrical?
Tire acceptable response to this is that they are all symmetri-cal.
Separate the ei9ht paper objects into two groups -- thoseil.re symmetrical :n only ore way and thosc that are
symmetrical in more than one way.
Note that the triangle, hexagon, ellipse, octagon, and rec-tmglo are symmetrical in more than one way. You may wishto have the various participants demonstrate their conclusicn.
What is the relationship between this "symmetry" activity'and Describing Observations?
13
Activity 2 (Instruction time: about 15 minutes)
Objective 2: Name the minimal observable properties of anobject or an event necessary to distinguish itfrom similar objects or events in a set.
(Direction: Distribute Packet C (Tinkertoys). Seict one ofthe participants to go out of view of the other participantsand assemble all or part of the Tinkertoys into some configu-ration. The other groups will have the contents of Packet Claid on the table.)
We have been describing objects and their grouping to eachother. , will you take the objects. I'd like foryou to ai5EMETF-all of the objects and as you do it to de-scribe for us what to do so that we can construct the samearrangement of our Tinkertoys.
Because of sound problems, you may need to stand near the doorand repeat the directions from the participants. Caution: Donot let the other participants ask questions about the direc-tions. If they are not clear, the results will be observable.Do not allow the one giving directions to see what the otherparticipants are doing.
When the directions are complete, have the participant who gavethe directions walk around the room and silently observe theresults.
As you observe the results, what directions, if any, wouldyou change? For what reason would you change these direc-tions?
The changes in direction will probably result from ambiguitiesas to what part of the set of Tinker toys should be placed where.
As you followed the directions for assembling the Tinker-toys, what specifically helped you?
14
23.
Here you have the opportunity to assist the participants inidentifying conciseness and preciseness as the two key featuresof functions communication.
(Direction: Use the two and three dimensional shapes in PacketA of Activity 1.)
I% set of objects is int like yours. I will describe one
of them. If you think you have enough information to selectthe object from your group, say "May I." If you do not have
enough information, say "More information please."
These are the ground rules which are similar to the fun activi-ties in the exercise, "Identifying an Object."
(Direction: Select the cube and a participant to respond.)
24. Show me the object which has a point on it.
25.
26.
27.
The participant will not be able to show you the object, forthat description, "a point on it" applies to the pyramid, cone,rectangular parallelepiped, as well as the cube. Thus, the
participant should say "More information please."
Why do you need more information?
Here you are helping the participant focus on the reason thatyour first communication was inadequate.
Show me the object that has straight lines.
This response should also be "more information please."
Show me the object that has a square or 90° corners.
15
28.
Again, the response should be 'more information, please," forthe objects with points, straight edges, and 90° cornersapplies equally well to the cube or parallelepiped or thesquare-based pyramid.
'Show me the object that has a square shaped surface.
Note that the parallelepiped, the cube, and the square-basedpyramid fit this description as well.
29. !Show me the object that has only square shaped surfaces.
30.
..=laAt this point the participants should be able to respond with"My
I."
(Direction: After identifying one or two of the objects, haveone of the participants be the describor and continue theactivity with the group
ORAs an alternative, group the participants in teams of two andcontinue to practice in this precision of communication.)
With what specific skill have we been working?
Precision in communication.
Activity 3 (Instruction time: About 20 minutes)
Objective 3: Construct a two or more stage classificationof a set of objects, based on observableproperties.
(Direction: Distribute Packet D for each group of 4-5participants which is an assortment of 15 objects, such asa pencil, eraser, rubber band, paper clip, wooden cube,sugar cube, small ball, petri dish, and circular papershape. For Steps 31-34 use the transparency that picturesthe objects.)
Observe this transparency for 15 seconds (or open the box,look, and close -- after 15 seconds).
At the end of 15 seconds, turn off the projector.
Now list as many of the objects on the transparency as youcan.
Check the results of the group to see how manyAbjects werelisted.
You may now look at the transparency again for 15 secondsand then list the items again.
When they have completed the listing, identify how many moreobjects were listed after the second effort than after thefirst.
17
34. For what reasons did you improve your list the secondtime?
35.
Some of the reasons may be that they rembered their firstlist and looked only for those items that they had notremembered.
Take the objects out of the packet and group them in thisway -- those that all of your group listed the first time,and those that you all did not list the first time. In
what way are the objects alike in the first group anddifferent fril those in the second group?
Note here they may start looking for physical characteristicsor uses of objects. You may find it necessary to remindthem of the basis of the grouping, that is, those they listedthe first time and those they did not list the first time.
36. ! Name each of the two groups based on the way in which yougrouped them.
They may choose names such as "first list," "not first list,"or "saw" and "did not see," etc. It will be helpful if youredirect their labels so that in each case one label is apositive description and the other label is the same descrip-tion with not added. For example, "first list" - "not firstlist." Sept one table's groupings and use their secondlist.
18
37.
38.
I have taken this table's "not" group and regrouped it.What should be the name for the new groups?
Accept various responses. One acceptable response is thatyour new grouping is based on the objects that were listedthe second time and those that were not listed the secondtime. Therefore, you end up with something like this:
1---ALL OBJECTS
[...]Listed on first list LI Not listed on first list I
Listed onsecondlist
Not listedon secondlist
(Direction: Distribute large sheets of chart paper and feltpens to each group. Display one with a large circle at thetop )
Each of your tables has a set of objects and a large sheet.Place the objects in the large circle at the top of thepage. What name will you give that circle? Now continueto regroup the objects as we did based on listing, untilthere is only one object in each circle. Caution: We willbe sharing the results with the others in our group, soplease be explicit.
19
1.
39.
40.
As the groups work, you may wish to note who at each tableseems to be the leader. When they are finished, have thecharts displayed around the room.
(Direction: Select a participant and a chart he did notprepare.)
will you show me where the pencil belongs onBiti-57-iliese charts?
If the participant is not able to find the proper place onthe chart, have him or the group decide what the difficultyis. You .nay want to continue the practice if the task is notclear.
(Direction: Use an object not a part of the set of objects,such as a chalkboard eraser or thumb tack orcoin -- something not originally in the box.)
Show me where this would be placed on the chart.
41. What are some guides, useful for classifying?
1. Select a characteristic that is shared by 1/2 of the group,so that the original group is divided into 2 groups.
2. Make the 2 group categories mutually exclusive, as:KU.1.and NOT-LLLIE and use as titles.
3. Continue dividing groups until each item is isolated.
HINT: In each category, identify each item included in thatcategory.
(Direction: Display a set of vegetables. Pictures or plasticvegetables will do if you don't want the mess andthe fun of the real thing. A suggested set ofvegefibles would be a white potato, sweet potato,
20
radish, carrot, beet, green onion, white orpurple onion, turnip, celery, and head lettuce.
42.1 If we limit ourselves to only those properties that are ob-servable, make two groups of these vegetables.
43.
44.
You may wish to note that it is usually most helpful to seeka property that divides the group into two sub-groups ofabout the same number.
What are the names of the three groups on our chart?
The first stage of all the objects might be labeled "Vege-tables," and the second stage labeled "Those with leavesattached" and "Those with no leaves attached."
'Those withleaves attached
VEGETABLES
Those with noleaves attached
(Direction: Distribute DO #3 to each participant.)
Continue to group the vegetables until you have only one ina box and name the propertklou used for grouping at eachlevel. Please note there are three ground rules.
1. You may not name the vegetables as a property.2. You may use only observable properties -- not
where it comes from or how it grows.3. You do not have to use the boxes as drawn on the
sheet; some may be empty when you are finished, oryou may need to add some.
As the participants work individually you will have the oppor-tunity to assist those to whom the task of classifying is
21
still not clear. When most of the participants have completedthis task, suggest that everyone finish within the next minute
or two.
45. Let's make a list of the various properties we used.
46.
47.
48.
As the participants name the properties they used, others maychallenge some if they are not fully observable.
(Direction: Display the green pepper and orange.)
Here are two new objects. Show me where they would fit on
your chart.
The green pepper's location may vary depending upon the organi-
zation of the chart. The important thing is that it can be
placed somewhere.
The orange has really only one location. It is not a vege-
table, which means that the whole chart will have to be
changed to include at the top, "Fruit and Vegetable." The
sub-categories under that would be "vegetable" and "not vege-
table."
Around your table you have been working with five other
people. Each of you is a distinct person with a name, as
was the green pepper a distinct object with a name. Using
the differences in your clothes, construct a classificationscheme so that each person can be identified.
This is both a fun activity and a delightful opportunity for
you to see how well classification and its communication comes
through.
In what way does classifying parts of a system help you to
describe it?I
22
Activity 4 (Instruction time: about 20 minutes)
Objective 4: Construct a graph for pairs of observations.
49. Let's return to the box of objects. How many objects had ashape like a circle? like a square? like a triangle? like
a rectangle? like an ellipse? Suppose you wanted to com-municate this but could not use words, how might you do this?
50.
You are continuing to emphasize the task of describing, but nowthe shift in focus is to the ways in which one can communicatewithout using words. Accept various responses from the par-ticipants such as drawing pictures, bar graphs, etc.
Suppose we wanted to draw a bar graph to communicate the shapeswe see in a set of objects. Show how you could do this.
Use blank page after DO #3. You may want to give the partici-
pants plain or ruled paper. After a few minutes at the task,
review their progress.
51. tell me what your partner's paper tells you.
52.
53.
Doing this provides an opportunity for the participants to see
how well their graph communicates.
Just to review -- as I construct a graph of this data inwhich we had 2 rectangles, 3 circles, 2 squares, 2 ellipses,and 0 triangles, what should I put along the base line?
You can put either names of shapes or numbers of shapes. The
choice is arbitrary, but convention holds that we put the cate-gories we choose or name along the base line and those we countor measure along the verticla axis.
If I put the number along the side, how far do I need to count?
23
54.
55.
56.
57.
The range of our data is from 0 to 3.
Do I number the lines or spaces?
Here again the choice may seem arbitrary, but if one thinks
about it one quart of ice cream is not really a quart until
it is up to the top! Hence, we number lines, not spaces.
Should the labels on the base line be on spaces or lines?
For making a bar graph, it really doesn't matter, but we do
know that the fewer rules we have the simpler life is; hence,
it is helpful to always label lines and never spaces.
Now complete the graph.
Write the name of1. your governor2. one U.S. senator from your state
3. the mayor of your town
4. Secretary of Defense
5. Chief Justice of the Supreme Court
6. the mayor of New York City
Review the correct names of these people and then tabulate
how many of the participants had the correct response for
each task. For example,
out of a class of 26, 24 named the governor, 25 the
senator, 26 the mayor, 11 the Secretary of Defense,
4 the Chief Justice, and 18 the mayor of New York City.
Construct a graph using the conventions we have discussed.
Observe those who appear to have difficulty. Have them tell
you what their problem is and in this way, assist them toward
its solution.
24
58.
59.
60.
(Direction: Hand out DID #4 and large chart paper.)
Here is a set of data showing the results of student achieve-ment scor in spelling between the first test and the lasttest in which a teacher used a new approach to spelling. As
a group, construct a graph you think best communicates how
effective the teacher's new approach to spelling was.
After the group has completed the task, display the chartpaper around the room. Review the graphs for adequacy ofdetail: are they labeled? are the lines named and numbered
and not the spaces? and are the points correctly plotted?
Which graph communicates the best answer to the question,"How effective was the program?"
There are various possibilities for the graphs: (see the
following pages)
You may wish to have transparencies C, D, and E of each ofthese graphs and have the group select the one that most clear-ly answers their questions.
Let's review the conventions of graphing.
1. Place categories named along the base line.
2. Place categories counted or measured along the vertical
axis.
3. Label lines and never spaces.
25
Spelling
Score
100
90
I70
60'
50-
40'
30
20
10'
0
Bill Marie Janet Don Marilyn Ken
STUDENT
January and March Spelling Scores
X = January score
0 = March score
26
100
90
80
70
60
Spelling
50Scores
1.111...
.
40
30
20
10
0
= January score
= March score
STUDENT
January and March Spelling Scores
27
March
Test
Scores
100. (Janet) % ,/0/0' )( (Bill)
90
ao,
70'
60'
50-
40.
30.
20-
10.
0
.,'
(Marilyn) X 0- (Ken)
(Don) (Marie) /
z
10 20 30 40 50 60 70 80 90 100
JANUARY TEST SCORES
o = what was expected if all students were helped the same
by the new spelling approach.
x = what was observed.
28
Appraisal (Time: about 20 minutes)
(Direction: Use DO #2, round primary pencil, sharpened, andtransparency F.)
61. To check up on how well you have done, here is a learningdiagnosis sheet. You will have a few minutes in which torespond. At the end of this time we will review theresponses.
When the task is completed, give immediate feedback to theparticipants by providing acceptable responses. Tally theresults of the group, as for the pre-appraisal. You maywish to have participants compare their own pre- and post-appraisals. If additional help is needed, individuals maybe referred to supplementary material in the Commenter forTeachers, (Science - A Process Approach), 196a.
You may wish to use the Overview of Describing Observations,DO #5, as a basis for discussing how the task of describingobservations can be approached in working with young chil-dren.
29
Duplicated Materials -- Without Answers
DESCRIBING OBSERVATIONS
TASK I
DO /1
Name the two - dimensional and three-dimensional shapes which
are part of the Dr. Pepper bottle.
Shapes: Two-dimensional
TASK II
Three-dimensional
By checking the appropriate column, identify the shape of theshadows cast by these objects:
AT
I 1
a. cylindrical pill botCe
b. base ball
c. child's alphabet playblock
d. egg
e. dunce cap
f. cigar box
i
31
Page 2 DO 11
TASK III
Examine the dradings of fruit. List only those characteris-tics of each sketch necessary to distinguish it from the others.
A.
B.
C.
D.
E.
TASK IV
Construct a classification system based on your descriptionsin Task III.
The classification scheme you construct should be such thatanother person could use it to identify and name each of the fruitsby using just the key you constructed and the transparency. Ateach stage in your system, name both the property oed to separatethe fruit and the name of the fruit that has the property.
All fruit
A, B, C, D, E
32
Page 3 DO #1
TASK V
In two classes, the children were listing their pets. The
results were as follows:
Mrs. G's second-grade class
Pet Number of Children Having One
Dog 11
Cat 9
Monkey 1
Parakeet 3
Gold Fish 4
Guinea Pig 1
Mrs. H's second-grade class
Dog 16
Cat 11
Parakeet 2
Monkey 3
Gold Fish 4
Guinea Pig 1
Construct a graph that shows the comparison of the results of thesurvey of pets in both classes.
Which pet was the most popular?
Which pet was the least popular?
33
7.....simm
emarurri.m
tel.
..11101.11.
Ohnom
magioom
aIn
....
I
DESCRI3IilG O3SERVATIONS
TASK I
flame the t,o- dimensional and three-dimensional shapes which
are parts of a sharpened primary pupil's round pencil.
Shapes: Two-dimensional
TASK II
DO #2
Three-dimensional
Identify, by checking the appropriate column, the two-dimensionalshapes Nhich are parts of the following three-dimensional figures:
1
0 A =a. cylinder
.
b. sphere
c. cube
d. ellipsoid
e. cone
f. rectangularparallelepiped
35
Page 2DO /2
TASK III
Examine the drawings. List only those characteristics ofeach sketch necessary to distinguish it from the others.
3.
10.
15.
34.
20.
18.
35.
TASK IV
Construct a classification system based on your descriptionsin Task III.
The classification scheme you construct should be such thatanother person could use it to identify and name each of the objectsby using just the key you constructed and the transparency. Ateach stage in your system, name both the property used to separatethe objects and the number of the object that has the property.
All Objects
3, 10, 15, 34, 20, 18
35
36
Page 3 DO 12
TASK V
The teacher in two fourth-grade classes made a survey of thestudents' opinion of the cafeteria menu. The results were asfollows:
Mrs. M's Class
Menu Number of Students Who Approved
Hamburger 29Meat Loaf 26Coney Sticks 18Chicken Legs 21Fish Sticks 8
Mr.s. W's Class
Hamburger 28Meat Loaf 24Coney Sticks 30Chicken Legs 18Fish Sticks 4
Construct a graph that shows the comparison of the results of thesurvey in both classes.
Which food did the children prefer?
Which food was preferred the least?
37
38
s
IMI .111011
D0 #4
Miss Ima Genius's Class Spelling Achievement
Child January March
Bill 89 91
Marie 61 82
Janet 86 93
Don 40 81
Marilyn 50 84
Ken 72 88
140
1
41
DO #5
Overview of Process of Describing Observations
(Parts A, B, C, D are taken from 1967 Xerox)
PART A (K, 1)
Classifying 1 - CLASSIFYING LEAVES, NUTS, OR SHELLS
Objectives:
At the end of this exercise, when a child is shown a collec-tion of specimens (or of pictures) of well-known objects, heshould be able to
1. CONSTRUCT and DEMONSTRATE the use of a classificationof the objects according to variations in a singlecharacteristic which has been specified by someoneelse.
2. CONSTRUCT and DEMONSTRATE the use of a classifica-tion of the objects according to variations in asingle characteristic which he has chosen.
3. DESCRIBE to others the characteristic he chose forhis method of classification.
4. IDENTIFY and NAME words which are used in the construc-tion of a classification system which is based on asingle characteristic.
Context:
Child cite characteristics of leaves, nuts, or shells, tobe used as oases for grouping.
VocabularY:
Arrange, classify, divide, differ, oval, pointed, flat,texture, group, match
42
Page 2 DO #5
Classifying 2 - A PURPOSE OF CLASSIFICATION
Objectives:
At the end of this exercise the child should be able to
1. CONSTRUCT a classification of a set of objects intotwo or more groups depending on whether the objectscan or cannot be used in a stated way.
2. CONSTRUCT and DEMONSTRATE the use of another classi-fication of the same set of objects into new groupsto serve a different stated purpose.
Context:
Pupils classify classmate's shoes, and group a variety ofobjects using bases given by the teacher and those generatedby the class.
Vocabulary:
Classify, classification
Classifying 3 - CLASSIFYING ANIMALS
Objectives:
At the end of this exercise the child should be able to
1. DISTINGUISH one animal from another, using his sensesas the only source of information.
2. IDENTIFY and NAME how some common animals are similarand how they are different.
3. CONSTRUCT and DEMONSTRATE the use of a classificationof animals, or pictures of animals, on the basis ofgross physical or behavioral characteristics.
Context:
Children discuss and describe Characteristics of cat, mouse,grasshopper, rabbit, chicken, butterfly in order to classify
43
Page 3 DO #5
them. Pictures of other animals are added to the classifica-tion system.
Vocabulary:
Names of animals and groups of animals used.
PART B (1, 2)
Classifying 4 - OBSERVING LIVING AND NONLIVING THINGS
Objectives:
At the end of this exercise the child should be able to
1. IDENTIFY and NAME at least one characteristic ofliving objects.
2. CONSTRUCT and DEMONSTRATE the use of a grouping intoliving and nonliving objects on the basis of observ-able characteristics.
Context:
An aquarium is used for observing living and nonlivingthings and describing their characteristics and needs.
Vocabulary:
Aquarium, guppies, snails, clams, water plants, alive,not alive, living, nonliving
Classifying 5 - VARIATION IN OBJECTS OF THE SAME KIND
Objectives:
At the end of this exercise the child should be able to
1. IDENTIFY and NAME variations among objects or organismswhich have many features in common.
44
Page 4 DO 15
2. DESCRIBE features which are common for each memberof a group.
Context:
Children discuss the differences in dogs and examinepeanuts, balls, flowers, and paper to discover the variationswithin each group.
Vocabulary:
Member, consuon, feature, family, variation
PART C (2, 3)
Classifying 6 - KINDS OF LIVING THINGS IN AN AQUARIUM
Objectives:
At the end of this exercise the child should be able to
1. DEMONSTRATE a separation of living organisms commonlyfound in an aquarium into sets and sub-sets.
2. CONSTRUCT and DEMONSTRATE the use of a simple classi-fication system (a key).
3. DEMONSTRATE the place of new organisms in the appro-priate categories and sub-categories of an establishclassification system.
Context:
Pupils organize items in an aquarium into a classificationscheme, using the classifying conventions.
Vocabulary:
Floating, nonfloating, swimming, nonswimming, oxygen, cell,lung, gills, subdivide, aquarium, characteristic, reptile,amphibian.
45
Page 5 DO #5
Classifying 7 - THE SOLID, LIQUID, AND GASEOUS STATES OF MATTER
Objectives:
At tie end of this exercise the child should be able to
1. IDEATIFY and AHE a substance as being a solid, a
liquid, or a gas.
2. DEMJASTRATE whether a substance is a solid, a liquid,
or a gas by using the following physical character-istics: it has a shape of its own; it has a top sur-
face that can be felt or seen; and it takes the shape
of the container.
Context:
The characteristics of water, stones, marbles, drinking
glass and blowing through a straw serve to generate defini-
tions of solids, liquids, gases.
Vocabulary:
Liquid, solid, gas, gaseous, matter, substance, state,
visible, particle, solid state, liquid state, gaseous state,
vial, compressed
Classifying 8 - THE COLOR :!HEEL - AN ORDER ARRANGEME4T
Objectives:
At the end of this exercise the child should be able to
1. IDENTIFY the principal colors by name.
2. CONSTRUCT an ordered arrangement of hues.
3. DISTINGUISH between two hues on the basis of purity
and STATE A RULE that brilliant and dull colors of
a specific hue differ in purity (saturation).
Context:
Crayons, paints, colored paper are used for organizing
colors in a wheel.
46
Page 6 DO #5
VocabularY:
Hue, tint, shade, gray, complementary, purity, saturation,dull, brilliant, separated, adjacent
Classifying 9 - SEPARATING MATERIALS FROM MIXTURES
Objectives:
At the end of this exercise the child should be able to
1. DEMONSTRATE a method for separating (classifying) thecomponents in a particular mixture according to theirsize.
2. ORDER the components of the mixture according to size.
3. DEMONSTRATE that the amount of each component in amixture can be found by comparing the weights orvolumes of the components of that mixture.
Context:
Mixtures of different size marbles, of gravel and coarseand fine sand, of different kinds of dry cereals are used fordeveloping separating techniques.
Vocabulary:
Sieve, filter, component, mixture
PART D (3, 4)
Classifying 10 - USING PUNCH CARDS TO RECORD A CLASSIFICATION
Objectives:
At the end of this exercise the child should be able to
1. CONSTRUCT a classification of objects by using atleast one series of subsets.
47
Page 7 DO :#5
2. CONSTRUCT a punch-card system to record simple
data.
3. DEMONSTRATE the use of a punch-card system.
Context:
Cards are used in a multitude of ways to indicate charac-
teristics used for classifying.
Vocabulary:
Punch card
PART 8 (1, 2)
Communicating 1 - IDEATIFYING AN OBJECT
Objectives:
At the end of this exercise the child should be able to
1. DISTINGUISH between collections of information that
are sufficient to identify an object and those that
are not.
2. DESCRIBE a sufficient number of properties of an
object (such as color, length, shape, texture, or
smell) so that a second person can identify the
object.
Context:
Stories, cubes, paper shapes are used to generate the
need for precise descriptions.
VocabularY:
Information, greenhouse
48
Page 8 DO 15
Communicating 2 - INTRODUCTION TO GRAPHING
Objectives:
At the end of this exercise the child should be able to
1. CONSTRUCT a bar graph.
2. IDENTIFY and NAME the number of items represented by
the bars of such a graph.
3. NAME the number of items represented by differentbars and DISTINGUISH among such expressions asmore than, fewer than, the same number as, most,
and fewest.
Context:
Colored cubes, felt pieces, disks, stones serve as the
bases for developing graphs.
Vocabulary:
Graph, grid, base line, key, bar
Comunicating 3 - DESCRIBING PHYSICAL CHANGES
Objectives:
At the end of this exercise the child should be able to
1. DESCRIBE the physical changes in an object in terms
of such characteristics as color, shape, texture,
sound, volume, length, and surface area.
2. DESCRIBE any characteristic which remains unchanged
while the object itself is changing.
Context:
Pupils describe an increasingly expanding balloon.
49
Page 9 DO #5
Vocabulary:
Expanding, lighter, completely, predict, deflate, heavier,
exactly, straight line, firmness, inflate
Communicating 4 - OBSERVING COLLISIONS
Objectives:
At the end of this exercise the child should be able to
1. DESCRIBE the heavier object as the one which exerts
the greater force when two objects move at the same
speed.
2. DESCRIBE the lighter object as the one which will
move farther, given two objects of different weights
and the same force exerted on each.
3, DEMONSTRATE a procedure for measuring and recording
changes in the position of various objects.
Context:
Rolling balls supply data for producing graphs.
Vocabulary:
Speed, incline, collision, force
Communicating 5 - DESCRIBING CHANGES IN PLANTS
Objectives:
At the end of this exercise the child should be able to
1. IDENTIFY and NAME observed changes in a plant.
2. DESCRIBE what was done to produce the observed
changes.
3. DESCRIBE the order in which the observed changes
occurred.
50
Page 10 DO #5
4. DESCRIBE the direction of motion and the rate of
change of the motion of the parts of the plant
which responded to the stimulus.
Context:
Venus's-Flytrap and other plants are examined and
described.
Vocabulary:
Leaf, leaflet, stem, fold, curl, wilt, Mimosa pudica,
Dionaea muscipula, stimulus, response
PART C (2, 3)
Communicating 6 - STAGES IN LIFE CYCLES
Objectives:
At the end of this exercise the child should be able to
1. DESCRIBE orally a living or nonliving object accord-
ing to several of its characteristics.
2. DESCRIBE orally the characteristics of a living ob-
ject as it grows and changes from one stage to
another.
Context:
Children observe chickens, ducks, mice, frogs, earthworm,
caterpillars, brine shrimp to develop precise terminology for
describing.
Vocabulary:
Cocoon, egg cases, orally, organism
51
Page 11DO 15
Communicating 7 - GRAPHING DATA
Objectives:
At the end of this exercise the child should be able to
1. NAME the units along the vertical and horizontal
axes of a bar graph.
2. CONSTRUCT a bar graph, given a frequency distri-
bution.
3. DISTINGUISH between quantities shown on a bar graph
in terms such as "greater than," "less than,"
"greatest," and "least."
Context:
Desks, children, rubber balls, and a variety of objects
provide data which is recorded on graphs.
Vocabulary:
Origin, record, data, vertical, horizontal, graph, grid,
axis.
Communicating 8 - DESCRIBING GROWTH FROM PARTS OF PLANTS
Objectives:
At the end of this exercise the child should be able to
1. DISTINGUISH between new plant growth and the part
of the plant it is growing from.
2. DESCRIBE vegetative growth qualitatively.
3. DESCRIBE the techniques used to produce new plant
growth from plant parts other than seeds in terms
precise enough that other people will be able to
follow the procedure.
52
Page 12 DO #5
Context:
Carrots, sweet potatoes, white potato, onion, coleus,
geranium, philodendron, and ivy "planted" in water so that
plants are produced, provide opportunities for observing
and describing growth.
Vocabulary:
Cutting, tuber, bulb
Communicating 9 - USING A SUNDIAL TO DESCRIBE SHADOW CHANGES
Objectives:
At the end of this exercise the child should be able to
1. IDENTIFY the length and compass direction of the
shadow of a given object at regular time intervals
during the day by drawing line segments to repre-
sent them.
2. IDENTIFY and NAME the pattern of changes that occur
in both the length and the direction of the shadow.
Context:
A stick, piece of paper, and pencil are used to record
shadows of sun at hourly intervals; tables of data are charted.
Vocabulary:.
Sundial, interpolate (optional), gnomon (optional)
PART D (3, 4)
Communicating 10 - USING MAPS
Objectives:
At the end-of thts exercise the child should be .able to
1. IDENTIFY and NAME distances on a map, given a key.
53
Page 13 DO #5
2. IDENTIFY and NAME locations on a map, using a key.
3. CONSTRUCT a map on a larger or smaller scale thanthe area or object the map represents.
Context:
Blueprints, and scale drawings of the classroom whichinclude letter-numeral coordinates, give map skills practice.
Vocabulary:
Map, architect, scale, blueprint, code, key
Communicating 11 - DESCRIBING LOCATION
Objectives:
At the end of this exercise the child should be able to
1. NAME the ordered number pair that locates a positionon a graph or a grid.
2. IDENTIFY the position of a number pair on a graph or
a grid.
Context:
Pupils' birthdays are used as data for a bar graph and
as locations on a grid, which includes developing positive
and negative coordinates.
Vocabulary:
Axis, parallel, coordinates, number pair, quadrant, nega-tive number, intersect, grid, origin
Communicating 12 - REPORTING AN INVESTIGATION (IN WRITING)
Objectives:
At the end of this exercise the child should be able to
54
Page 14 DO 15
1. DESCRIBE in writing all parts of an investigation
that he has just observed or conducted, including
the purpose, method, materials, procedure, and
results.
Context:
Sand and gravel mixed with water provide materials for
an investigation and a report of the investigation.
Vocabulary:
Gravel, sand
PART A (K, 1)
Using Space/Time Relationships 1 - RECOGNIZING AND USING SHAPES
Objectives:
At the end of this exercise the child should be able to
1. IDENTIFY and NAME amnion two-dimensional shapes.
2. IDENTIFY the common two-dimensional shapes in
objects in his environment.
Context:
Colored paper, felt, wire, cardboard introduce names of
shapes.
Vocabulary:
Circle, rectangle, square, triangle, ellipse, edge,
side, shape, alike, different, large, big, small, wide,
narrow, long, short
55
Page 15 DO f5
Using Space/Time Relationships 2 - RECOGNIZING DIRECTION
Objectives:
At the end of this exercise the child should be able to
1. DEMONSTRATE movements up, down, forward, and back.
2. IDENTIFY the direction associated with each of theseterms with respect to himself: up, down, forward,and back.
3. IDENTIFY the right and left parts of his body.
4. DEMONSTRATE movement in the direction of his rightor left.
5. IDENTIFY the direction associated with his right andleft.
Context:
Pupils move themselves directionally.
Vocabulary:
Up, down, back, forward, left, right, arrow, direction
Using Space/Time Relationships 3 - OBSERVING MOVEMENT
Obje6tives:
At the end of this exercise the child should be able to
1. IDENTIFY objects which are moving or not moving.
2. NAME the direction in which the objects or animalsare moving--that is, up, down, forward, back, right,or left.
3. IDENTIFY body movements other than those of locomo-tion--moving the eyelid, moving the lower jaw,wrinkling the nose, turning the head to the leftand right.
56
L
Page 16 DO #5
Context:
Paper streamers, flying flags, tree branches, swimmingfish, moving turtles are observed in order to describetheir directional movement.
VocabularY:
Direction, streamer
Using Space/Time Relationships 4 - SPACING ARRANGEMENTS
Objectives:
At the end of this exercise the child should be able to
1. CONSTRUCT an arrangement of himself and his class-mates, as well as objects, in the forms of familiartrx-dimensional shapes.
2. CONSTRUCT the two-dimensional shapes formed by agiven arrangement of objects.
Context:
Following a diagram drawn on the chalkboard, childrenplace themselves at specified locations on a rectangle, circle,triangle, or line segment drawn on the classroom floor.
VocabularY:
Arrange, arrangement, diagram
Using Space/Time Relationships 5 - SHAPES AND THEIR COMPONENTS
Objectives:
At the end of this exercise the child should be able to
1. CONSTRUCT and NAME the following plane, or two-dimensional, shapes: triangle, circle, square,rectangle, and ellipse.
57
Page 17 DO #5
2. IDENTIFY the following three-dimensional shapes:sphere, cube, cylinder, pyramid, and cone.
3. IDENTIFY and NAME the two-dimensional shapes thatare components of regular three-dimensional shapes.
Context:
Pipe cleaners are used by children to copy paper two-dimensional shapes which are introduced as components of
solid three-dimensional objects (made of wood, plastic, or
styrofoam).
Vocabulary:
Sphere, cube, cone, cylinder, pyramid, ellipsoid, trace,
base, two-dimensional, three-dimensional, line segment
Using Space/Time Relationships 5 - RECOGNIZING TIME INTERVALS
Objectives:
At the end of this exercise the child should be able to
1. DISTINGUISH between time intervals by making state-
ments like this: "The period for reading was longer
than the rest period."
2. IDENTIFY and NAME the day of the week and DISTINGUISH
the appropriate numeral on a calendar for a given day.
3. IDENTIFY and NAME the time on the hour, given a clock
and the position of the hour hand, by saying: "It
is 9 o'clock."
Context:
The calendar and a paper clock face are used along with
extensive discussions with children concerning intervals of
time.
VocabularY:
Year, month, week, day,etc., Sunday, Monday, etc.,
hour, minute, January, February,sector, minute hand, hour hand
58
Page 18
PART B (1, 2)
Using Space/Time Relationships 7 - SYMMETRY
Objectives:
At the end of this exercise the child should be able to
1. IDENTIFY objects which have line or plane symmetry.
2. DEMONSTRATE the symmetry of objects by matching
their parts.
3. DEMONSTRATE that some objects can be folded or cut
in more than one way to produce matching halves.
Context:
00 15
Paper two-dimensional shapes, cutouts of letters, and
other figures, an orange and clay models of three-dimensional
shapes are used for developing concepts of symetry.
Vocabulary:
Symmetry, not symmetrical, symmetrical, line of symmetry,
plane of symmetry
Using Space/Time Relationships 8 - THE SHAPES OF ANIMALS
Objectives:
At the end of this exercise the child should be able to
1. DESCRIBE common environmental objects such as animals
in terms of two- and three-dimensional shapes.
2. IDENTIFY and DEMONSTRATE bilateral symmetry in
animals.
Context:
Pictures and models of animals are used so that children
may identify and reproduce two- and three-dimensional shapes.
59
Page 19
Vocabulary:
Names of animals, bilateral symmetry, plane of symmetry
Using Space/Time Relationships 9 - SHADOWS
Objectives:
At the end of this exercise the child should be able to
1. IDENTIFY a three-dimensional object from its two-dimensional projections.
2. IDENTIFY the two-dimensional projections of agiven three-dimensional object.
Context:
DO I/5
The different two- dimensional shaped shadows cast by three-dimensional figures are used by children to identify the unknownthree-dimensional figure.
VocabularY:
Shadow, hemisphere, rectangular prism
Using Space/Time Relationships 10 - RECOGNIZING AAD USING ANGLES,DIRECTIONS, A110 DISTANCE
Objectives:
At the end of this exercise the child should be able to
1. IDENTIFY and NAME angles.
2. DISTINGUISH a right angle from other angles.
3. IDENTIFY a "square corner" as an example of a rightangle.
4. STATE and DEMONSTRATE which of two angles is largerby superimposing one angle upon another.
9 60
Page 20DO 15
5. DEMONSTRATE how to walk or mark off a designated
number of "steps" in a specified direction.
Context:
Pupils observe the angles of street intersections, wire
squares and rectangles, and reproduce angles with pipe
cleaners, straws and grid paper.
Vocabulary:
Angle, right angle, right triangle, square corner, con-
gruent (optional)
Using Space/Time Relationships 11= TIME INTERVALS
Objectives:
At the end of this exercise the child should be able to
1. DISTINGUISH short time intervals involving minutes or
seconds by counting, or by using a time-measuring
device such as a metronome, pendulum, water clock,
or sandglass timer.
2. DISTINGUISH between observed differences in time
intervals.
Context:
What to use for timing when a clock is not available to
children: verbal counting, sand timer, water timer, a
pendulum made of a suspended sponge rubber ball with a pencil
through it, or a burning candle with scale attached.
Vocabulary:
Timer, metronome, pendulum, uniform, second
61
Page 21
PART C (2, 3)
Using Space/Time Relationships 12 - TELLING TIME
Objectives:
At the end of this exercise the child should be able to
1. NAPE the time orally to the nearest five minutes,
given the position of the hour and minute hands on
a clock.
2. NAtE the time orally to the nearest five
given the time as written numerals, such
3. NAME in writing the time using numerals,
clock face.
4. NAME in writing the time using numerals, given the
time orally.
5. NAME the number of days before or after a particular
event, and IDENTIFY the particular day on a calendar,
for example, in the following way: "It is eight
days after Valentine's Day," or "It is five days
before the class goes to the zoo."
6. NAME the number of hours before and after a particu-
lar time, and IDENTIFY on a clock face what the time
was or will be, for example: "Three hours ago it was
nine o'clock," or "Six hours from now it will be four
o'clock."
minutes,as 8:25.
given a
DO 15
Context:
Pupils use paper-plate clocks, sheets of clock faces for
eking, "clock bingo" and, of course, a clock.
vonchularY:
Ralf, half-past, after, colon, clockwise, minute,
o'clock (of the clock)
62
Page 22 DO 15
Using Space/Time Relationships 13 - STRAIGHT LINES, CURVED LINES,
AND SURFACES
Objectives:
At the end of this exercise the child should be able to
1. IDENTIFY and NAME straight and curved paths on a
flat surface.
2. IDENTIFY a straight-line path on a flat surface as
the shortest distance between two points.
3. DISTINGUISH between closed and open (or not-closed)
paths on a plane surface.
4. DEMONSTRATE that a path drawn on the surface of asphere must be curved; ind that a line on the surface
of a cylinder or cone may be a curved or straight
path, depending on its position.
5. DEMONSTRATE how to decide whether a surface is flat
or not.
6. IDENTIFY a straight path, a curved path, flat sur-
faces, curved surfaces, and curved surfaces that are
spherical surfaces, by pointing to representations
of them in the classroom.
Context:
Pencil, chalk, string, yarn are used on paper and a large
ball to show paths.
Vocabulary:
Curved line, curved surface, flat surface, closed path,
open path, spherical surface, great circle
63
Page 23
PART D (3, 4)
Using Space/Time Relationships 14 - RATE OF CHANGE OF POSITION
Objectives:
At the end of this exercise the child should be able to
1. IDENTIFY objects according to their speeds, using
terms such as "faster than" and "slower than."
2. STATE and APPLY A RULE that the speed of an object
is the distance moved per unit of time.
3. DISTINGUISH between speed, time taken to change
position, and distance moved.
Context:
BO #5
Racing toy cars, hopping children, and walking children
are timed and (distance) measured so that rate of change can
be determined.
Vocabulary:
Rate of change, position, length of time of change,
fast, faster, fastest
Using Space/Time Relationships 15 - TWO-DIMENSIONAL REPRESENTATIONOF SPATIAL FIGURES
Objectives:
At the end of this exercise the child should be able to
1. CONSTRUCT pictures of a circle, a square, and a
triangle as they appear when viewed at an angle
rather than perpendicular to their surfaces.
2. CONSTRUCT pictures of a cube, a rectangular prism,
a triangular pyramid, and a cy!inder, first show-
ing all edges and then only those that are visible
simultaneouily.
64
Page 24 DO #5
Context:
Using paper boxes, bricks, building toys, and shadods
cast by squares, wire-frame cubes, rectangular prisms, and
other three-dimensional shapes, children learn to constructpictures of three-dimensional objects.
Vocabulary:
Rectangular prism, edge, dimension, plane
Using Space/Time Relationships 16 - RELATIVE POSITION AND MOTION
Objectives:
At the end of this exercise the child should be able te;
1. DESCRIBE observed changes in the position of objects
relative to his own position.
2. DESCRIBE observed changes in the position of objectsrelative to the position of another observer.
Context:
A block on a board in a moving wagon, children passinga ball in a moving wagon are used to develop the objectives.
Vocabulary:
Relative to, observer
65
Duplicated Materials - With Answers
Performance criteria for acceptable response:
Task ITask IITask IIITask IVTask V
TASK I
4 of 58 of 10 possible checks5 of 5 7 of 7 (DO #2)5 of 53 of 4 (title, 2 labels, bars or points)
DESCRIBING OBSERVATIONS
DO #1
Name the two dimensional and three dimensional shapes whichare part of the Dr. Pepper bottle.
Shapes: Two-dimensional CIRCLE, TRIANGLE, RECTANGLE
TASK II
Three-dimensional CONE, CYLINDER
By checking the appropriate column, identify the shape of the
shadows cast by these objects:
L\ 0Ea. cylindrical pill bottle
b. base ball
c. child's alphabet play I
\//
j./
block
d. egg
e. dunce cap / 1/
f. cigar box. .
67
Page 2
TASK III
DO fl
Examine the drawings of fruit on the transparency. Listonly the characteristics necessary to be able to distinguishit from the others.
A. RED SINGLE FRUIT, SPHERICAL IN SHAPE, SMOOTH APPEARING SKIN
B. SPHERICAL IN SHAPE,_IN CLUSTERS RED
C. aLIPTICAL SHAPE, IN CLUSTERS, GREEN
D. SURFACE APPEARS ROUGH, ORANGE
E. ELLIPTICAL SHAPE, SINGLE FRUIT, YELLOW
TASK IV
Construct a classification system based on your descriptionsin Task III.
The classification scheme you construct should be such thatanother person could use it to identify and name each of the fruitsby using just the key you constructed and the transparency. Ateach stage in your system, name both the property used to separatethe fruit and the letter of the fruit that has the property.
All fruit
A, B, C, D, E
68
CLUSTERS
B, C
Shperical
Shape
B
ALL FRUIT
A. B. C. D. E
/\I
NO CLUSTERS
A,'D, E
Non-Spherical
Surface texture
Shape
appears rough
CD
Surface texture does
not appear rough
A, E. Non - Spherical
.........F
Shape
Page 4
TASK V
DO in
Construct a graph that shows the comparison of the results of the
survey of pets in both classes.
171615
141312
11
10Uund 9
of 8Students 7
6
54321
0
Pet Preference
Cat Monkey Parakeet
Mrs. G's second grade class
Mrs. H's second grade class
Gold GuineaFish Pig
Which pet was the most popular? DOG
Which pet was the least popular? GUINEA PIG
70
D012
DESCRIBING OBSERVATIONS
TASK I
Name the two-dimensional and three-dimensional shapes whichare parts of a sharpened pencil.
Shapes: Two-dimensional TRIANGLE, RECTANGLE, CIRCLE
Three-dimensional CONE, CYLINDER
TASK II
Identify, by checking the appropriate column, the two-dimensionalshapes which are parts of the following three-dimensional figures:
IF] ,0 A.
a. cylinder
b. sphere
J/
1c. cube 1d. ellipsoid V/ NI/
e. cone
f. rectangular parallelepiped / ,
TASK III
Examine the drawings. List the minimum characteristics of eachsketch necessary to distinguish it from the others.
71
Page 2 DO f2
3. circular shaped
10. no straight sides, not colored
15. yellow
34. 4 sides equal in length
20. rectangular shape
18. 4 s1;3e5 enual in length (larger than 2 cm)
35. tr7Fnr...1.ir -;hape
TASK IV
Construct a classification system based on your descriptionsin Task III.
The classification scheme you construct should be such thatanother perscn could use it to id.antify and name each of the objectsby using just the key you constructed and the transparency. Ateach stage in your system, name both the property used to separatethe objects and the number of the ..-jyject that has the property.
ALL OBJECTS
3, 10, 15, 34, 20, 18, 35
:Response No. 1
TWO ACCEPTABLE RESPONSES
All objects10, 15, 34, 3, 20, 18, 35i
pas straight sides I pas no straight sides
34 20it 18, 35 1 10 1 3
\ss
DO # 2
Urgerthan apenny18
Response No. 2
Not squareshaped35
rcu ar-s a
r angu arshaped
35
triangulashaped20
3
All Objects20 35 15 3 34 10 18
tra ghtI_ 20, 35
73
'Not c rcuTarshaped
10 15
04(15
5 3 34 18
twig t15 3
no re
15
olored10
of straight34 18
sma erthan a%dime
34
riirgerthan adime
I 18
Page 4
TASK V
Construct a graph that shows the comparison of the results of the
survey in both classes.
0012
3028262422
NUMBER 2018
OF 1614
STUDENTS 12
108642
0
MENU PREFERENCE
Hamburger Meat Coney Chicken
Loaf Sticks Legs
[11 = Mrs. M's class
= firs W's class
Which food did the children prefer?
Which food was preferred the least?
74
HAMBURGER
FISH STICKS
Fish
Sticks
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